Understanding the Simplex algorithm. Standard Optimization Problems.
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1 Understanding the Simplex algorithm. Ma 162 Spring 2011 Ma 162 Spring 2011 February 28, 2011 Standard Optimization Problems. A standard maximization problem can be conveniently described in matrix form as follows. Maximize P = CX subject to AX B and X 0. Here, X is a column of the variables used in the problem, C is a row vector, so that P = CX is a linear function of X. It is often similar to a profit function, hence the letter P. Moreover, in the current course we assume that B 0. This insures that the choice X = 0 satisfies all the inequalities, i.e. is a feasible solution. Problems can be analyzed without this assumption, but we won t try to solve them not in this course. Here is an example (4.1 Example 3): Take A = 2 4 1, B = 26 and C = [ ]
2 Example continued. We construct a problem table (or tableau) recording all the coefficients as follows: x y z Constants X Constants or symbolically A B C We are using the title constants to match the book notation. When we write the Simplex tableau, it may be changed to RHS, since in the tableau, we have equations, not just inequalities. Minimization tableau. There is a natural dual problem associated with this table and it has a dual problem table (tableau) as follows: u v w Constants or symbolically Y Constants A C B The matrices A, B, C are the transposes of A, B, C respectively. Thus the whole table is simply a transpose. Our dual problem is described as follows: Minimize 14u + 26v + 28w subject to the conditions 2u+2v+w 2, u+4v+2w 2, 2u+v+3w 1 and u, v, w 0.
3 Duality theorem. The dual problem is described as a minimization problem as follows. We let Y be a row vector of variables, equal in number to the number of rows of A. Minimize Y B subject to Y A C and Y 0. Compare this with the inequalities above by taking Y = [ u v w ]. The reason to write Y as a row rather than a column is somewhat technical and would be clarified below. The amazing theorem called the duality theorem states that any solution of the original maximization problem by the Simplex Algorithm produces a solution to its dual minimization problem by simply reading the final tableau. We describe this next. The solution from the algorithm. For our maximization problem above, we record the starting and the final tableaux and then show how to interpret them. Starting tableau: x y z u v w P RHS End tableau: x y z u v w P RHS 1 0 7/6 2/3 1/ /3 1/3 1/ /2 0 1/ /3 2/3 1/
4 The interpretation of the solution. Inspection of the final tableau says that the final basis is x, y, w, P and hence the final basic solution is: (x, y, z, u, v, w, P ) = (5, 4, 0, 0, 0, 15, 18). The Voodoo Principle also tells us the actual row transformations that we performed. This information is read from the 4 4 matrix under the variables u, v, w, P. We know that the row transformations can be performed by multiplying the original 4 8 matrix by some 4 4 matrix on the left. We see that this transformation matrix must be [ M 0 Y 1 ] = 2/3 1/ /3 1/ / /3 1/3 0 1 Interpretation continued. The first part of the last row Y = [ 2/3 1/3 0 ] tells us that we must have multiplied the first three rows by 2/3, 1/3, 0 respectively and added to the last row. By looking at the the entries at the foot of the x, y, z columns, we deduce that [ 0 0 2/3 ] = C + Y A since the original entries were C = [ ] and we added Y A to it. Thus Y A C. By looking at the last entry in the bottom row, we know that it was 0 and we have added Y B to it. Thus, we have Y 0, Y B = (2/3) (14) + (1/3) (26) + (0) (28) = 18. Thus Y is a feasible solution to the dual problem.
5 Why do we have the dual problem solved? Recall that the two Linear Programming Problems (LPP) are: Maximize: P = CX s.t. X 0, AX B and Minimize: Q = Y B s.t. Y 0, Y A C. Here we name the second function Q instead of C since C is used for the coefficients of P. Recall that by a feasible solution to either problem we mean a solution which satisfies all the inequalities, but may not give the maximum or minimum. If X 0, Y 0 are feasible solutions to the two problems respectively, then we see that Y 0 B Y 0 AX 0 CX 0. Thus the function value Q 0 = Y 0 B is always bigger than or equal to the function value P 0 = CX 0. Proof of Duality. Thus, if X 0 and Y 0 are feasible solutions to the maximization and its dual minimization problems respectively and if P 0 = CX 0 = Y 0 B = Q 0 then both must be simultaneously the optimum values for the respective problems, hence the solutions of both the problems at once! Thus for our dual problems X 0 = (5, 4, 0) and Y 0 = (2/3, 1/3, 0) are the respective solutions of the maximization and the minimization problems with a common function value 18. Warning! Note that the Y values are read at the foot of the original slack variables, but they are not the values of the basic solution for the slack variables corresponding to the maximization problem.
6 How to handle optimization problems? Recall that we always assume all our variables to be non negative in this course. In the following discussion, we are only discussing the remaining inequalities; we shall call them essential inequalities. If our essential inequalities are of type with non negative RHS, then we write it as a maximization problem and solve with the Simplex algorithm. (If we happen to be minimizing a function, we can always maximize its negative instead!) If our essential inequalities are of type with non negative RHS, then we write it as a minimization problem and solve its dual with the Simplex algorithm. Then read off the solution under the slack columns as shown above. (If we happen to be maximizing a function, we can always minimize its negative instead!) Terminology. The problem we wish to solve is always called the primal problem and its dual is the dual problem. When do we fail? Recall that if we have a negative entry in the last row of a simplex tableau but no suitable pivot above because all such entries are less than or equal to zero, then our maximization problem is unbounded and has no solution. For the dual minimization problem, we can claim that there is no feasible solution. This means that its feasible region is empty! We can also have a case where the dual minimization problem is unbounded, but then the primal maximization problem shall have no feasible solution! This cannot occur under our standardness assumption. You will meet this in higher courses.
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